Optimization of parameters of connecting and mounting modules in the design of hydraulic control units of machines

It is proposed that when implementing into practice the design of the aggregate-modular approach for creating hydraulic control units for hydraulic drives of process equipment, the problem of optimal design of aggregatemodular hydraulic control units be solved by developing and using connection and assembly modules that implement invariant mathematical models and, when designing, design algorithms aimed at forming the structure of hydraulic channels and assembly housings determined by basic hydraulic diagrams. Optimization of parameters of connection dimensions of connection and mounting modules based on criteria: volume and weight, hydraulic pressure losses, labor intensity and manufacturing cost, allows to perform parametric synthesis of aggregate-modular hydraulic control units. The analysis of the general criterion of optimality of connection and mounting modules is carried out taking into account the technological process of manufacturing modules. It is established that if the entire service life of the product is taken into account, the costs of cost and processing of the blank of connection and mounting modules can be neglected. Thus, the process of optimization of parameters of connection and mounting modules is simplified. The obtained result can be used in designing mounting housings of hydraulic control units of technological equipment.

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